DE102017213713B4 - magnetic field sensor - Google Patents

Abstract

Magnetic field sensor (1) having a device housing (6) having at least one sensor element housing part (2) and a connection element housing part (4), the connection element housing part (4) being at least partially in the sensor element housing part (2) in the direction of a longitudinal axis (L) of the device housing (6). in which the connection element housing part (4) and the sensor element housing part (2) are connected by means of a flange (8), characterized in that a device housing outside of the device housing (6) has a toothing (10) of the connection element housing part (4) with the sensor element housing part ( 2) having toothing region (12),
wherein in the toothed region (12) a toothed portion (14) of the terminal housing part (4) and a toothed portion (16) of the sensor element housing part (2) interlock and form the outside of the device housing and
wherein in the toothing region (12) on the device housing outside a the connection of the connector housing part (4) and sensor element housing part (2) securing seal (18) on the connector housing part (4) and the sensor element housing part (2) is arranged.

Description

The invention relates to a magnetic field sensor with a device housing having at least one sensor element housing part and a connection element housing part, wherein the connection element housing part is arranged at least partially in the sensor element housing part in the direction of a longitudinal axis of the device housing and wherein the connection element housing part and the sensor element housing part are connected by means of a flange.

Such a magnetic field sensor is known for example as a so-called speed sensor or rotary encoder for a tachograph in a motor vehicle, in particular a commercial vehicle. The magnetic field sensor has a sensor head and is screwed into a transmission housing of a transmission of the motor vehicle. By means of the sensor head, the magnetic field sensor detects a movement of a transmission gear wheel of the transmission. The movement of the transmission gear is a measure of the speed of the motor vehicle. A part of the sensor element housing part is part of the sensor head. The magnetic field sensor is connected to the tachograph of the motor vehicle via a plug socket comprising the terminal element housing part and terminal contacts. Due to the required high reliability of recorded with the tachograph data, it is inter alia important to avoid manipulation of the magnetic field sensor and from such manipulation following data falsifications.

Out DE 11 2013 007 708 T5 For example, a speed sensor is known, which has a sensor module with a first housing and a cable module with a second housing, wherein the sensor module and the cable module are formed separately and then assembled.

A vehicle speed sensor having an open ended sensor housing and a connector housing coupled to the open end is disclosed US Pat. No. 6,392,406 B1 , To set a desired sensor length, the sensor housing can be moved relative to the connector housing.

A two-part sensor device, which consists of a fastened to a stationary carrier holding device and a held by this sensor module is made DE 10 2007 032 504 A1 known.

A rod-shaped magnetic field sensor with an outer housing and with a sensor head, the outer housing being a plastic injection-molded component embedding the sensor head DE 10 2014 205 307 A1 ,

Furthermore, it is off DE 10 2008 025 067 A1 a seal assembly for a rotary encoder with a protective housing and with a seal known.

An assembly method for a magnetic field transmitter with a sleeve-shaped permanent magnet and a Hall generator and with a two-part housing, one housing part is designed as a protective sleeve and the other housing part as a plug socket disclosed DE 195 46 865 C1 ,

The object of the invention is to provide a magnetic field sensor of the type mentioned, which has a high security against manipulation.

This object is achieved in that a device housing outside of the device housing has a toothing of the Anschlußelementgehäuseteils with the sensor element housing part having toothing, wherein mesh in the toothing a toothed portion of the Anschlußelementgehäuseteils and a toothed portion of the sensor element housing part and form the device housing outside and wherein in the toothing region on the device housing outside a seal securing the connection of the connection element housing part and the sensor element housing part is arranged on the connection element housing part and the sensor element housing part.

Of particular advantage in the magnetic field sensor according to the invention, the simultaneous provision of a toothing of the two housing parts sensor element housing part and connecting element housing part and arranged in the toothing having a toothing region, the connection of the two housing parts securing seal. Unauthorized separation of sensor element housing part and terminal housing part, which could be made, for example, in manipulative intent to get to the inside of the magnetic field sensor can thus be made particularly reliable recognizable because the separation not only to an opening, in particular to a bending, the Flaring leads, but also requires a detachment of the seal and / or its destruction. Manipulations are thus particularly reliable recognizable. The toothing of the connection element housing part with the sensor element housing part additionally forms an anti-rotation lock of the two housing parts to one another, whereby a high torsional strength is achieved.

The seal is preferably by means of a bond on the outside of the device housing arranged, that is, the seal is preferably adhered to the device housing in the toothing region. The seal may for example be a seal, which is destroyed in a separation of the sensor element housing part and connector housing part. The seal may be, for example, a so-called VOID seal, which leaves a mark on the outside of the device housing as well as in or on the seal itself upon removal, for example detachment or tearing off of the seal from the device housing.

The flanging is produced in a production of the magnetic field sensor preferably in that a thin-walled annular region on the sensor element housing part is bent over a collar on the connection element housing part, namely flanged. Preferably, the material for the sensor element housing part is designed in such a way that it does not permit repeated bending up and down, as would occur, for example, when the flange is opened and closed. Further preferably, the material is designed such that it comes to visible fractures in the material even with a single opening of the flange. Additionally or alternatively, the material is designed such that (for example, by stretching the material when opening the flange) a renewed bending, that is a re-closing of the flange, after opening the flange is not possible with the result of a visually flawless flanging. The material for the sensor element housing part is preferably a very brittle, high-strength material.

The longitudinal axis of the device housing is that axis of the device housing that corresponds to the direction of its greatest extent. The longitudinal axis of the device housing is preferably also the longitudinal axis of the magnetic field sensor. The device housing of the magnetic field sensor may in particular be cylindrical. Then there is a cylindrical magnetic field sensor. Preferably, the magnetic field sensor is rod-shaped.

Additional advantageous developments of the invention are specified in the subclaims.

According to an advantageous development of the invention, the toothed section of the sensor element housing part has a recess in the sensor element housing part and the toothed section of the connection element housing part has a projection on the connection element housing part, and the toothed section of the connection element housing part engages positively in the toothed section of the sensor element housing part. In this way, a simply designed, but at the same time very reliable and easily achieved in a production of the magnetic field sensor and due to the positive connection to be mated and stable connection of the sensor element housing part and connector housing part is achieved.

According to another advantageous development of the invention, the curling on the device housing outside runs around the device housing and has a crimp interruption on the toothed section of the connection element housing part. The flange thus runs up to the interruption of the flange on the toothed portion of the connector housing part to the circumference of the device housing. For example, in the case of a cylindrical device housing, the flange then runs annularly around the circumference of the device housing, wherein the ring is not closed, but has the interruption at the toothed portion of the connector housing part. Compared with a fundamentally conceivable embodiment of the flange as a closed flange, for example a closed ring without crimp interruption, the connection element housing part can advantageously be freely inserted into the sensor element housing part with the aforementioned development of the invention, whereby the production of the magnetic field sensor is additionally simplified.

It would be conceivable for the toothed area to have, for example, a three-dimensional design on its outwardly facing surface. On the other hand, according to an advantageous development of the invention according to the device housing outside in the toothed area on a flakeless surface. Thus, the surface on which the seal is placed has no steps or steps. As a result, the seal in the manufacture of the magnetic field sensor can be mounted particularly reliably and with great durability on the outside of the device housing in the toothing region.

The sensor element housing part can be, for example, a metal component. It has proved to be particularly advantageous if, according to a development of the invention, the sensor element housing part consists of an aluminum alloy at least in the region of the flange. The aluminum alloy may in particular be AlZnMgCu 1.5 (for example EN AW-7075 T6) or AlMgSiBi (for example EN AW-6026 T6). The two aforementioned aluminum alloys have been found in experiments to be particularly suitable for the invention. Preferably, the sensor element housing part as a whole consists of the aluminum alloy. By using the aluminum alloy, at least partial breakage of the sensor element housing part in the region of the flange can be achieved in the case of a manipulative pulling apart of the sensor element housing part and connection element housing part of the magnetic field sensor and so on Manipulation of the magnetic field sensor are made particularly well visible.

According to another advantageous embodiment of the invention, the sensor element housing part in the region of the flange has a wall thickness of 0.5 mm to 0.9 mm, preferably 0.7 mm, wherein the tolerance is for example ± 0.1 mm. Thus, on the one hand, a high stability of the connection between sensor element housing part and connection element housing part and, on the other hand, an irreversible change or destruction of the flange in the case of a manipulative pulling apart of sensor element housing part and connection element housing part of the magnetic field sensor can be achieved.

The same applies if according to another advantageous embodiment of the invention, the flange has a radius of 0.9 mm to 1.5 mm, preferably 1.2 mm, wherein the tolerance is for example ± 0.2 mm. An outer diameter of the magnetic field sensor in the region of the flange is for example 26.5 mm.

The connection element housing part can advantageously be produced cost-effectively, and if appropriate embedded in the terminal housing part connector contacts can also be easily isolated from each other in a simple manner, according to an advantageous embodiment of the invention, the connector housing part consists of a plastic material. The connection element housing part is preferably a plastic injection-molded component, that is to say it is produced in a plastic injection molding process.

According to an advantageous development of the invention, the plastic material of the connection element housing part has security pigments. Safety pigments are pigments against counterfeiting. The security pigments are embedded in the plastic material insoluble. The presence of the security pigments and, if appropriate, their distribution in the plastic material can be detected, for example optically, if appropriate with the aid of special technical devices or devices. As a result, protection of the magnetic field sensor against manipulation is advantageously further increased. Such manipulations could be, for example, that a connection element housing part damaged in the event of impermissible opening of the magnetic field sensor is replaced by a terminal element housing part which is identical in its shape but which has no safety pigments. For example, both a type of distribution of the security pigments in the connection element housing part and physical properties of the security pigments can serve as security features for protection against manipulation.

According to an advantageous development of the invention, the security pigments are designed such that they are excited upon irradiation with light of a specific wavelength to glow. This makes it possible to achieve a particularly simple check for possible manipulations. Preferably, the security pigments can be designed such that they are excited during irradiation to a visible to the human eye lights. In particular, the security pigments can be designed in such a way that they are excited to glow on irradiation with UV light.

• 1 einen Magnetfeldsensor in einer perspektivischen Ansicht,
• 2 den Magnetfeldsensor nach 1 in einer Seitenansicht,
• 3 den Magnetfeldsensor nach 1 in einer Schnittansicht,
• 4 ein Sensorelementgehäuseteil des Magnetfeldsensors nach 1 in einer perspektivischen Ansicht,
• 5 ein Anschlusselementgehäuseteil des Magnetfeldsensors nach 1 in perspektivischer Ansicht und
• 6 einen vergrößerten Ausschnitt des Magnetfeldsensors nach 1 in einer Schnittansicht.

An embodiment of the invention is shown in the drawing sketchy and schematic and will be described in more detail below. Show it

• 1 a magnetic field sensor in a perspective view,
• 2 the magnetic field sensor after 1 in a side view,
• 3 the magnetic field sensor after 1 in a sectional view,
• 4 a sensor element housing part of the magnetic field sensor according to 1 in a perspective view,
• 5 a terminal housing part of the magnetic field sensor according to 1 in perspective view and
• 6 an enlarged section of the magnetic field sensor after 1 in a sectional view.

Corresponding elements are provided in all figures with the same reference numerals.

1 . 2 show a magnetic field sensor 1 with a sensor element housing part 2 (see 4 ) and a terminal housing part 4 (see 5 ) having device housing 6 , The sensor element housing part 2 and the terminal housing part 4 together form the device housing 6 , The connector housing part 4 and the sensor element housing part 2 are by means of a crimp 8th connected.

As in particular from 3 becomes clear, is the terminal housing part 4 in the direction of a longitudinal axis L of the device housing 6 partially in the sensor element housing part 2 arranged. The longitudinal axis L of the device housing 6 is also the longitudinal axis L of the magnetic field sensor 1 , The magnetic field sensor 1 is rod-shaped and cylindrical.

A device housing outside of the device housing 6 has a toothing 10 of the connector housing part 4 with the sensor element housing part 2 having gearing area 12 on. In the gearing area 12 grab a gear section 14 of the connector housing part 4 and a gear section 16 the sensor element housing part 2 into each other and form the outside of the device housing.

Also, in the gearing area 12 on the outside of the device housing a connection of connector housing part 4 and sensor element housing part 2 securing seal 18 on the connector housing part 4 and the sensor element housing part 2 arranged. For better visibility is the seal 18 in the illustrations after 1 . 2 shown dashed and transparent. In this embodiment, the seal 18 a first code 20 which is an optical number code and a second code 22 which is an optical character code.

In the direction of the longitudinal axis L of the device housing 6 is the gearing area 12 with the seal 18 , starting from the terminal housing part 4 , after the crimp 8th arranged. To the gearing area 12 with the seal 18 then there is an attack element 23 for attaching a fastening tool to attaching the magnetic field sensor 1 For example, on a transmission housing of a transmission of a motor vehicle. The gearing area 12 with the seal 18 is thus between the curl 8th and the attacking element 23 arranged. The attack element 23 is part of the sensor element housing part in this embodiment 2 ,

It can also be seen that the toothed section 16 the sensor element housing part 2 a recess 24 in the sensor element housing part 2 having. Corresponding to the recess 24 has the toothing section 14 of the connector housing part 4 a lead 26 on the connector housing part 4 on. The lead 26 of the gear section 14 of the connector housing part 4 engages positively in the recess 24 of the gear section 16 the sensor element housing part 2 a (compare 1 ).

The curl 8th runs on the outside of the device housing around the device housing 6 around. At the toothed section 14 of the connector housing part 4 has the flange 8th a crimp break 28 on. Furthermore, in particular from the 1 . 2 . 3 to recognize that the device housing outside in the toothed area 12 has a flawless surface.

In 6 is a the flanging 8th comprehensive enlarged section of the magnetic field sensor 1 shown in a sectional view. In the area of the flange 8th has the sensor element housing part 2 , which in this embodiment consists of an aluminum alloy, a wall thickness d, for example, 0.7 mm (tolerance, for example, ± 0.1 mm). The curl 8th itself has a radius r, for example, 1.2 mm (tolerance, for example, ± 0.2 mm).

The curl 8th has an end edge of the sensor element housing part 2 on, around a crimping contour 30 , which is a collar here, of the connector housing part 4 is flanged. The around the hemming contour 30 flanged edge of the sensor element housing part 2 indicates a generation of the flange 8th in a manufacture of the magnetic field sensor 1 a height h which is, for example, 2.5 mm (tolerance for example ± 0.25 mm).

An outer diameter of the magnetic field sensor 1 is in the region of the flange in this embodiment 26.5 mm.

The connector housing part 4 consists in this embodiment of a plastic material and is a plastic injection molded component. The plastic material of the connector housing part 4 has security pigments, not shown here.

Into the connector housing part 4 are electrical connection contacts 32 . 32 ' injected so that the terminal housing part 4 with the connection contacts 32 . 32 ' a plug socket for connecting the magnetic field sensor 1 forms with, for example, a tachograph of a motor vehicle. The plug socket has the connection contacts 32 . 32 ' and the terminal housing part 4 on. The connection contacts 32 . 32 ' are in a manner not shown with a circuit board 34 (please refer 3 ) electrically connected. The connection contacts 32 . 32 ' are with the circuit board 34 for example, soldered.

The circuit board 34 contributes in this embodiment, not shown here sensor element, for example, a Hall element. The sensor element is in a sensor head 36 of the magnetic field sensor 1 , which magnetic field sensor 1 can also be referred to as Induktivgeber arranged.

In this embodiment, the sensor head 36 with an external thread 38 Provided. By means of external thread 38 becomes the magnetic field sensor 1 for example, screwed into a transmission housing of a transmission of a motor vehicle.

Claims (10)

Magnetic field sensor (1) having a device housing (6) having at least one sensor element housing part (2) and a connection element housing part (4), the connection element housing part (4) being at least partially in the sensor element housing part (2) in the direction of a longitudinal axis (L) of the device housing (6). in which the connection element housing part (4) and the sensor element housing part (2) are connected by means of a flange (8), characterized in that a device housing outside of the device housing (6) has a toothing (10) of the connection element housing part (4) with the sensor element housing part ( 2), wherein in the toothed region (12) a toothed section (14) of the connecting element housing part (4) and a toothed section (16) of the sensor element housing part (2) interlock and form the outside of the device housing and wherein in the toothing region (12) on the device housing outside a seal (18) securing the connection of connection element housing part (4) and sensor element housing part (2) is arranged on the connection element housing part (4) and the sensor element housing part (2). Magnetic field sensor after Claim 1 characterized in that the toothing portion (16) of the sensor element housing part (2) has a recess (24) in the sensor element housing part (2) and the toothed portion (14) of the terminal housing part (4) has a projection (26) on the terminal housing part (4) and the toothed section (14) of the connecting element housing part (4) engages in a form-fitting manner in the toothed section (16) of the sensor element housing part (2). Magnetic field sensor after Claim 1 or 2 , characterized in that the flange (8) on the device housing outside around the device housing (6) rotates and at the toothed portion (14) of the connecting element housing part (4) has a Bördelungsunterbrechung (28). Magnetic field sensor according to one of the preceding claims, characterized in that the outer surface of the device housing in the toothed region (12) has a surface free of abrasion. Magnetic field sensor according to one of the preceding claims, characterized in that the sensor element housing part (2) at least in the region of the flange (8) consists of an aluminum alloy. Magnetic field sensor according to one of the preceding claims, characterized in that the sensor element housing part (2) in the region of the flange (8) has a wall thickness (d) of 0.5 mm to 0.9 mm. Magnetic field sensor according to one of the preceding claims, characterized in that the flange (8) has a radius (r) of 0.9 mm to 1.5 mm. Magnetic field sensor according to one of the preceding claims, characterized in that the connection element housing part (4) consists of a plastic material. Magnetic field sensor after Claim 8 , characterized in that the plastic material of the connector housing part (4) has security pigments. Magnetic field sensor after Claim 9 , characterized in that the security pigments are formed such that they are excited upon irradiation with light of a certain wavelength to a glow.

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